structural safety
简明释义
结构安全度
英英释义
Structural safety refers to the ability of a structure to withstand its intended load without experiencing failure, collapse, or significant deformation. | 结构安全是指一个结构在承受其预期负荷时,能够不发生失效、倒塌或显著变形的能力。 |
例句
1.After the earthquake, the city prioritized the structural safety of public facilities.
地震后,城市优先考虑公共设施的结构安全性。
2.Regular inspections are crucial for maintaining the structural safety of older buildings.
定期检查对于维护老旧建筑的结构安全性至关重要。
3.The engineers conducted a thorough assessment to ensure the structural safety of the bridge.
工程师们进行了全面评估,以确保桥梁的结构安全性。
4.The architect incorporated advanced materials to enhance the structural safety of the skyscraper.
建筑师采用先进材料来增强摩天大楼的结构安全性。
5.Training programs for construction workers often emphasize structural safety protocols.
建筑工人的培训项目通常强调结构安全性协议。
作文
Structural safety is a critical aspect of engineering that ensures the integrity and stability of structures such as buildings, bridges, and dams. It involves assessing the ability of these structures to withstand various loads and environmental conditions without experiencing failure or collapse. The importance of structural safety (结构安全) cannot be overstated, as it directly impacts the lives of individuals who use these structures and the environment surrounding them.To understand structural safety (结构安全), we must first consider the factors that contribute to a structure's stability. Engineers must evaluate the materials used in construction, the design of the structure, and the loads it will encounter over its lifespan. For instance, buildings must be designed to resist not only the weight of the materials themselves but also external forces such as wind, earthquakes, and snow. This requires a thorough understanding of physics and material science, as well as adherence to relevant building codes and regulations.One of the key components of structural safety (结构安全) is the concept of load-bearing capacity. Every structure has a maximum load it can support without failing. Engineers calculate this capacity by conducting various tests and simulations. If a structure is subjected to loads beyond its capacity, it risks structural failure, which can lead to catastrophic consequences. Thus, ensuring that a structure can handle expected loads is paramount in the design process.Another important aspect of structural safety (结构安全) is regular maintenance and inspection. Over time, structures can deteriorate due to weathering, corrosion, and other environmental factors. Regular inspections help identify potential weaknesses or damages that could compromise the safety of the structure. Maintenance activities, such as repairing cracks or reinforcing weak areas, are essential to prolong the lifespan of a structure and ensure it remains safe for use.The role of technology in enhancing structural safety (结构安全) has grown significantly in recent years. Advanced software allows engineers to create detailed simulations of how structures will behave under various conditions. This predictive capability enables better design choices and helps identify potential issues before construction begins. Additionally, modern materials, such as high-strength concrete and steel, have improved the overall durability and safety of structures.In conclusion, structural safety (结构安全) is an indispensable aspect of civil engineering that affects every individual who interacts with built environments. By focusing on load-bearing capacity, regular maintenance, and leveraging technology, engineers can ensure that structures are not only functional but also safe. As cities continue to grow and evolve, the commitment to maintaining high standards of structural safety (结构安全) will remain a top priority to protect lives and promote public trust in infrastructure.
结构安全是工程学中的一个关键方面,确保建筑物、桥梁和大坝等结构的完整性和稳定性。它涉及评估这些结构在各种负荷和环境条件下的承载能力,而不会发生故障或倒塌。结构安全(结构安全)的重要性不容小觑,因为它直接影响到使用这些结构的个人的生命以及周围环境。为了理解结构安全(结构安全),我们首先必须考虑影响结构稳定性的因素。工程师必须评估施工中使用的材料、结构的设计以及其在整个生命周期内所遇到的负荷。例如,建筑物必须设计成能够抵御不仅是自身材料的重量,还要抵御外部力量,如风、地震和雪。这需要对物理学和材料科学有透彻的理解,以及遵循相关建筑规范和法规。结构安全(结构安全)的一个关键组成部分是承载能力的概念。每个结构都有一个最大负荷,它可以在不失败的情况下支持。工程师通过进行各种测试和模拟来计算这个能力。如果一个结构承受超过其能力的负荷,它就面临结构失效的风险,这可能导致灾难性的后果。因此,确保结构能够承受预期负荷在设计过程中至关重要。结构安全(结构安全)的另一个重要方面是定期维护和检查。随着时间的推移,结构可能因风化、腐蚀和其他环境因素而恶化。定期检查有助于识别可能会危及结构安全的潜在弱点或损坏。维护活动,例如修复裂缝或加强薄弱区域,对于延长结构的使用寿命并确保其安全使用至关重要。技术在提高结构安全(结构安全)方面的作用近年来显著增加。先进的软件使工程师能够创建详细的模拟,以了解结构在各种条件下的表现。这种预测能力使得更好的设计选择成为可能,并帮助在施工开始之前识别潜在问题。此外,现代材料,如高强度混凝土和钢铁,提高了结构的整体耐用性和安全性。总之,结构安全(结构安全)是土木工程中不可或缺的一个方面,影响着每一个与建筑环境互动的个人。通过关注承载能力、定期维护和利用技术,工程师可以确保结构不仅功能齐全,而且安全。随着城市的不断发展和演变,保持高标准的结构安全(结构安全)将始终是保护生命和促进公众对基础设施信任的首要任务。
相关单词
